Component mounting line and component mounting method

ABSTRACT

A component mounting line has a screen printing apparatus and component mounting apparatuses. Each component mounting apparatus includes a first substrate carrying lane and a second substrate carrying lane, carries a first type substrate on which a first pattern has been printed in the first substrate carrying lane, performs a component mounting-relevant operation on the first type substrate, carries a second type substrate on which a second pattern has been printed in the second substrate carrying lane, and performs a component mounting-relevant operation on the second type substrate. The screen printing apparatus selects a type of the substrate to be carried in depending on whether a substrate is carried in the second component mounting apparatus downstream from the screen printing apparatus.

CROSS REFERENCE TO RELATED APPLICATION(S)

The present disclosure relates to the subject matters contained inJapanese Patent Application No. 2014-034997 filed on Feb. 26, 2014,which are incorporated herein by reference in its entirety.

FIELD

An embodiment of the present invention relates to a component mountingline that includes a screen printing apparatus printing paste on asubstrate and plural component mounting apparatuses arranged in serieson the downstream side of the screen printing apparatus and performing acomponent mounting-relevant operation on the substrate on which thepaste has been printed by the screen printing apparatus and a componentmounting method thereof.

BACKGROUND

In the related art, a component mounting line is known which includes ascreen printing apparatus printing paste on a substrate and pluralcomponent mounting apparatuses arranged in series on the downstream sideof the screen printing apparatus so as to perform a componentmounting-relevant operation on the substrate on which the paste has beenprinted by the screen printing apparatus. In a type of the componentmounting line, two types of substrates are alternately printed byselectively performing a screen printing operation on two types ofsubstrates with a single mask having a first pattern corresponding to afirst type substrate and a second pattern corresponding to a second typesubstrate. The plural component mounting apparatuses installed on thedownstream side of the screen printing apparatus carry the first typesubstrate in one substrate carrying lane out of two substrate carryinglanes, mount components on the first type substrate, carry the secondtype substrate in the other substrate carrying lane, and mount thecomponents on the second type substrate (For example, see PatentDocument 1).

Patent Document 1 is JP-A-2011-143640.

SUMMARY

However, in such a component mounting line, when a flow of one type ofsubstrate is delayed due to an error or the like in one substratecarrying lane out of two substrate carrying lanes of a componentmounting apparatus, the other type of substrate may not be carried outfrom the screen printing apparatus to the other substrate carrying laneeven though there are no problems in the carrying state of the othersubstrate carrying lane”, the production of the other type of substratesin the other substrate carrying lane may be adversely affected, and thusthe productivity in the other substrate carrying lane which is notstopped may be lowered. That is, the screen printing apparatusalternately performs a printing operation on two types of substrates.Accordingly, when a flow of one type of substrates in one substratecarrying lane is delayed and the one type of substrate to be carried outto one substrate carrying lane is already carried in the screen printingapparatus, the one type of substrate cannot be carried out to onesubstrate carrying lane on the downstream side. Accordingly, althoughthe carrying state of the other substrate carrying lane is not abnormal,the other type of substrate cannot be carried out from the screenprinting apparatus to the other substrate carrying lane and theproduction of the other type of substrate in the other substratecarrying lane is adversely affected.

Therefore, an object of the embodiment is to provide a componentmounting line and a component mounting method that can preventdegradation in the productivity in one substrate carrying lane even whencarrying of a substrate in the other substrate carrying lane is delayed.

According the embodiment, there is provided a component mounting lineincluding: a screen printing apparatus that prints paste on a substrate;and a plurality of component mounting apparatuses that are arranged inseries on a downstream side of the screen printing apparatus and performa component mounting-relevant operation on the substrate on which thepaste has been printed by the screen printing apparatus, wherein thescreen printing apparatus includes a mask in which a firstpattern-forming area in which a first pattern corresponding to a firsttype substrate is formed and a second pattern-forming area in which asecond pattern corresponding to a second type substrate is formed arearranged in a predetermined pattern arrangement direction, a substratesupport unit moving mechanism that moves a substrate support unitsupporting a substrate in the pattern arrangement direction below themask and that selectively brings the substrate into contact with one ofthe first pattern-forming area and the second pattern-forming area, anda print head that prints the paste on the substrate selectively broughtinto contact with one of the first pattern-forming area and the secondpattern-forming area by moving over the mask, wherein each of theplurality of component mounting apparatuses includes a first substratecarrying lane and a second substrate carrying lane which are arranged inthe pattern arrangement direction, carries the first type substrate onwhich the first pattern has been printed in the first substrate carryinglane, performs a component mounting-relevant operation on the first typesubstrate, carries the second type substrate on which the second patternhas been printed in the second substrate carrying lane, and performs acomponent mounting-relevant operation on the second type substrate, andwherein the screen printing apparatus selects a type of the substrate tobe carried in depending on whether a substrate is carried in the secondcomponent mounting apparatus downstream from the screen printingapparatus.

According to the embodiment of the invention, there is provided acomponent mounting method in a component mounting line including ascreen printing apparatus that prints paste on a substrate and aplurality of component mounting apparatuses that are arranged in serieson the downstream side of the screen printing apparatus and perform acomponent mounting-relevant operation on the substrate on which thepaste has been printed by the screen printing apparatus, the screenprinting apparatus including a mask in which a first pattern-formingarea in which a first pattern corresponding to a first type substrate isformed and a second pattern-forming area in which a second patterncorresponding to a second type substrate is formed are arranged in apredetermined pattern arrangement direction, a substrate support unitmoving mechanism that moves a substrate support unit supporting asubstrate in the pattern arrangement direction below the mask and thatselectively brings the substrate into contact with one of the firstpattern-forming area and the second pattern-forming area, and a printhead that prints the paste on the substrate selectively brought intocontact with one of the first pattern-forming area and the secondpattern-forming area by moving over the mask, each of the plurality ofcomponent mounting apparatuses including a first substrate carrying laneand a second substrate carrying lane which are arranged in the patternarrangement direction, the component mounting method including: a firstoperation step in which the each component mounting apparatus carries inthe first type substrate on which the first pattern has been printedusing the first substrate carrying lane and performs a componentmounting-relevant operation on the first type substrate; a secondoperation step in which the each component mounting apparatus carries inthe second type substrate on which the second pattern has been printedusing the second substrate carrying lane and performs a componentmounting-relevant operation on the first type substrate; and a selectionstep in which the screen printing apparatus selects the type of asubstrate to be carried in depending on whether a substrate is carriedin the second component mounting apparatus downstream from the screenprinting apparatus.

According to the embodiment, it is possible to prevent degradation inthe productivity in one substrate carrying lane even when carrying of asubstrate in the other substrate carrying lane is delayed.

BRIEF DESCRIPTION OF THE DRAWINGS

A general configuration that implements the various features of theinvention will be described with reference to the drawings. The drawingsand the associated descriptions are provided to illustrate embodimentsof the invention and should not limit the scope of the invention.

FIG. 1 is a plan view of a component mounting line according to anembodiment of the invention.

FIG. 2 is a plan view of a part of the component mounting line accordingto the embodiment of the invention.

FIG. 3 is a plan view of a screen printing apparatus of the componentmounting line according to the embodiment of the invention.

FIG. 4 is a lateral view of the screen printing apparatus according tothe embodiment of the invention.

FIG. 5 is a plan view of a mask of the screen printing apparatusaccording to the embodiment of the invention.

FIGS. 6A and 6B are partial lateral views of the screen printingapparatus according to the embodiment of the invention.

FIG. 7 is a block diagram illustrating a control system of the screenprinting apparatus according to the embodiment of the invention.

FIGS. 8A and 8B are diagrams illustrating operations of the screenprinting apparatus according to the embodiment of the invention.

FIGS. 9A and 9B are diagrams illustrating operations of the screenprinting apparatus according to the embodiment of the invention.

FIGS. 10A and 10B are diagrams illustrating operations of the screenprinting apparatus according to the embodiment of the invention.

FIGS. 11A and 11B are diagrams illustrating operations of the screenprinting apparatus according to the embodiment of the invention.

FIG. 12 is a flowchart illustrating a determination flow that isperformed by a controller of the screen printing apparatus according tothe embodiment of the invention.

FIGS. 13A, 13B, and 13C are diagrams illustrating operations of thecomponent mounting line according to the embodiment of the invention.

FIGS. 14A, 14B, and 14C are diagrams illustrating operations of thecomponent mounting line according to the embodiment of the invention.

FIGS. 15A, 15B, 15C, and 15D are diagrams illustrating operations of thecomponent mounting line according to the embodiment of the invention.

DETAILED DESCRIPTION OF THE EMBODIMENTS

Hereinafter, an embodiment of the invention will be described withreference to the accompanying drawings. FIG. 1 illustrates a componentmounting line 1 according to the embodiment of the invention, and FIG. 2illustrates apart (area H in FIG. 1) of the component mounting line 1.The component mounting line 1 is used to mount components 3 onsubstrates 2 to manufacture component-mounted substrates and includes ascreen printing apparatus 5 printing paste Pst such as solder on anelectrode 2 a of the substrate 2 supplied from a substrate supplyapparatus 4 and plural component mounting apparatuses 6 arranged inseries on the downstream side of the screen printing apparatus 5. Here,the component mounting apparatus 6 is an apparatus that performs acomponent mounting-relevant operation on the substrate 2 on which thepaste Pst has been printed by the screen printing apparatus 5, andexamples thereof include an inspection apparatus that is installed onthe downstream side of the screen printing apparatus 5 so as to inspectthe substrate 2 subjected to the screen printing by the screen printingapparatus 5 and a component mounting apparatus is installed on thedownstream side of the screen printing apparatus 5 or on the downstreamside of the inspection apparatus so as to mount components 3 on thesubstrate 2 on which paste Pst has been printed by the screen printingapparatus 5.

In this embodiment, a flow direction of the substrate 2 in the componentmounting line 1 is an in-plane direction (the right-left direction whenviewed from an operator OP) of a horizontal plane directed from the leftside of FIG. 1 to the right side and is defined as an X axis direction.An in-plane direction (the frontward-rearward direction when viewed fromthe operator OP) of the horizontal plane perpendicular to the X axisdirection is defined as a Y axis direction, and the vertical directionis defined as a Z axis direction. In this embodiment, the left side ofFIG. 1 corresponds to the upstream side (upstream step side) of the flowof the substrate 2 and the right side of FIG. 1 corresponds to thedownstream side (downstream step side) of the flow of the substrate 2.

In FIGS. 3 and 4, the screen printing apparatus 5 includes a substrateholding and moving mechanism 12 on a base 11, and a mask 13 in whichpatterns (a first pattern PT1 and a second pattern PT2 illustrated inFIG. 5) to be printed on the substrate 2 are formed above the substrateholding and moving mechanism 12. A carrying-in conveyer 14 as asubstrate carrying-in unit delivering a substrate 2 carried in fromanother apparatus (herein, the substrate supply apparatus 4) on theupstream process side to the substrate holding and moving mechanism 12and a carrying-out conveyer 15 as a substrate carrying-out unit carryingout the substrate 2 sent out from the substrate holding and movingmechanism 12 to the component mounting apparatus 6 on the downstreamprocess side are disposed on the upstream side (the left side in FIG. 1)in the flow of the substrate 2 of the substrate holding and movingmechanism 12 on the base 11. The screen printing apparatus 5 includes aprint head 17 moved by a print head moving mechanism 16 and a pastesupply mechanism 18 integrated with the print head 17 above the mask 13,and includes a camera unit 20 moved in the horizontal plane by a cameraunit moving mechanism 19 below the mask 13.

In FIG. 4, the substrate holding and moving mechanism 12 of the screenprinting apparatus 5 includes a substrate support unit 21 supporting asubstrate 2 and a substrate support unit moving mechanism 22 moving thesubstrate support unit 21. The substrate support unit 21 includes alifting plate 31 serving as a base, a pair of conveyers 33 (see FIG. 3)attached to a conveyer support member 32 extending upward from thelifting plate 31, a lower holding member 35 being lifted up and downabove the lifting plate 31 by a first lifting motor 34 attached to thelifting plate 31, and a pair of clampers 37 (see FIG. 3) that aredisposed above the conveyers 33 and that are opened and closed in the Yaxis direction by a clamper driving motor 36. The conveyer 33 carriesthe substrate 2 received from the carrying-in conveyer 14 in the X axisdirection and positions the substrate as a predetermined clampingposition, and the lower holding member 35 supports the substrate 2positioned at the clamping position from the bottom side. The clampers37 clamp the side surface (the side surfaces facing each other in the Yaxis direction) of the substrate 2 supported by the lower holding member35 from the Y axis direction. Out of two clampers 37 arranged in the Yaxis direction, the clamper located on the side (the right side of FIG.4 which is defined as the front side) of the operator OP is referred toas a front clamper 37F, and the clamper located on the opposite side(the left side of FIG. 4 which is defined as the rear side) of theoperator OP is referred to as a rear clamper 37R.

In FIG. 4, the substrate support unit moving mechanism 22 includes anXYθ table 41 that moves a base table 41 d in the horizontal plane byrelative movement of a Y table 41 a, an X table 41 b, and a 0 table 41 cwhich are stacked on the base 11 and a second lifting motor 42 thatlifts the lifting plate 31 (that is, the entire substrate support unit21) relative to the base table 41 d. The substrate support unit movingmechanism 22 moves the substrate support unit 21 holding the substrate 2(clamping the substrate with the clampers 37) through the use of the XYθtable 41 and lifts the substrate 2 through the use of the second liftingmotor 42.

In FIG. 5, the mask 13 has a rectangular panel shape extending in the XYplane and the outer circumference thereof is supported by a frame member13 w. In the mask 13, a first pattern-forming area R1 in which a firstpattern PT1 corresponding to a first type substrate 2 is formed and asecond pattern-forming area R2 in which a second pattern PT2corresponding to a second type substrate 2 (for example, the substrate 2obtained by reversing the first type substrate 2) is formed are arrangedin the Y axis direction (in a predetermined direction in the horizontalplane) so as to perform screen printing operations corresponding to twotypes of substrates 2 of the first type substrate 2 and the second typesubstrate 2 (see FIGS. 6A and 6B).

In FIG. 3, the carrying-in conveyer 14 is movable in the Y axisdirection (the arrangement direction of the first pattern-forming areaR1 and the second pattern-forming area R2 of the mask 13) through theuse of a carrying-in conveyer moving mechanism 14 a. In FIG. 2, twosubstrate supply apparatuses 4 disposed on the upstream process side ofthe screen printing apparatus 5 are arranged in the Y axis direction,the carrying-in conveyer 14 can receive a substrate 2 from any of thetwo substrate supply apparatuses 4 by moving in the Y axis directionthrough the use of the carrying-in conveyer moving mechanism 14 a andcan deliver the substrate 2 to either the substrate support unit 21located below the first pattern-forming area R1 or the substrate supportunit 21 located below the second pattern-forming area R2. In FIG. 3, thecarrying-out conveyer 15 is movable in the Y axis direction through theuse of a carrying-out conveyer moving mechanism 15 a and can receive asubstrate 2 from either the substrate support unit 21 located in thefirst pattern-forming area R1 and the substrate support unit 21 locatedin the second pattern-forming area R2.

In FIG. 3, a set of two substrate-side marks 2 m is disposed at diagonalpositions of the substrate 2 (only one substrate-side mark 2 m isillustrated in FIG. 3), and a set of two mask-side marks 13 mcorresponding to the substrate-side marks 2 m are disposed in the firstpattern-forming area R1 and the second pattern-forming area R2 on themask 13 (see FIG. 5). When the substrate support unit 21 is lifted up bythe second lifting motor 42 and the substrate 2 held by the substratesupport unit 21 is brought into contact with the mask 13 in a state inwhich the two substrate-side marks 2 m are matched with the twomask-side marks 13 m disposed in the first pattern-forming area R1 in aplan view, the electrode 2 a of the substrate 2 and the first patternPT1 of the mask 13 are matched with each other (FIG. 6A). Similarly,when the substrate support unit 21 is lifted up by the second liftingmotor 42 and the substrate 2 held by the substrate support unit 21 isbrought into contact with the mask 13 in a state in which the twosubstrate-side marks 2 m are matched with the two mask-side marks 13 mdisposed in the second pattern-forming area R2 in a plan view, theelectrode 2 a of the substrate 2 and the second pattern PT2 of the mask13 are matched with each other (FIG. 6B). In this way, in thisembodiment, the substrate holding and moving mechanism 12 moves thesubstrate support unit 21 holding the substrate 2 in the patternarrangement direction (in the Y axis direction) below the mask 13 so asto selectively bring the substrate 2 in contact with one of the firstpattern-forming area R1 and the second pattern-forming area R2.

As illustrated in FIGS. 6A and 6B, in this embodiment, an area on themask 13 coming in contact with the rear clamper 37R when the substrate 2is brought into contact with the first pattern-forming area R1 of themask 13 and an area on the mask 13 coming in contact with the frontclamper 37F when the substrate 2 is brought into contact with the secondpattern-forming area R2 of the mask 13 are the same area Rm between thefirst pattern-forming area R1 and the second pattern-forming area R2.Accordingly, even when the substrate is brought into contact with anyone of the first pattern-forming area R1 and the second pattern-formingarea R2, the clamper 37 (one of the front clamper 37F and the rearclamper 37R) is located in the area Rm between the first pattern-formingarea R1 and the second pattern-forming area R2.

In FIGS. 3 and 4, the print head 17 includes two squeegees 52 arrangedto face each other in the Y axis direction below a movable base 51extending in the X axis direction. The print head moving mechanism 16includes two print head moving ball screws 16 a extending in the Y axisdirection to be screwed through the right and left ends of the movablebase 51 and two print head moving motors 16 b rotationally driving thetwo print head moving ball screws 16 a. When the two print head movingball screws 16 a synchronously rotates through the use of the two printhead moving motors 16 b, the movable base 51 moves in the Y axisdirection. The two squeegees 52 are individually lifted up and downbelow the movable base 51 by squeegee lifting cylinders 53 disposed inthe movable base 51. Out of the two squeegees 52 arranged in the Y axisdirection, the squeegee located on the side of the operator OP (theright side of FIG. 4) is referred to as a front squeegee 52F, and thesqueegee located on the opposite side of the operator OP (the left sideof FIG. 4) is referred to as a rear squeegee 52R.

In FIGS. 3 and 4, the camera unit 20 includes an upper imaging camera 20a of which the imaging field of vision faces the upper side and a lowerimaging camera 20 b of which the imaging field of vision faces the lowerside. The camera unit moving mechanism 19 moving the camera unit 20 inthe in-plane direction of the horizontal plane includes a Y axis table19 a extending in the Y axis direction on the base 11, an X axis table19 b extending in the X axis direction and moving over the Y axis table19 a, and a movable plate 19 c moving over the X axis table 19 b. Thecamera unit 20 is attached to the movable plate 19 c and moves in thehorizontal plane by the movement of the X axis table 19 b in the Y axisdirection relative to the Y axis table 19 a and the movement of themovable plate 19 c in the X axis direction relative to the X axis table19 b.

The paste supply mechanism 18 stores paste Pst therein and ejects thepaste to the lower side. In FIGS. 3 and 4, the paste supply mechanism 18is attached to the movable base 51, moves in the Y axis direction alongwith the squeegees 52 by the movement of the movable base 51 in the Yaxis direction, and moves in the X axis direction over the movable base51. Accordingly, the paste supply mechanism 18 can freely move in thehorizontal plane by the movement of the movable base 51 in the Y axisdirection and the movement of the paste supply mechanism 18 in the Xaxis direction and can supply the paste Pst to any area on the mask 13.The paste supply mechanism 18 supplies the paste Pst to the area Rmbetween the first pattern-forming area R1 and the second pattern-formingarea R2 in a shape extending in the extending direction of the squeegees52 (that is, the X axis direction).

In FIG. 7, the moving operation of the carrying-in conveyer 14 in the Yaxis direction by the carrying-in conveyer moving mechanism 14 a, thecarrying-in operation of the substrate 2 by the carrying-in conveyer 14,the moving operation of the substrate 2 to the clamping position by theconveyers 33, the lifting operation of the lower holding member 35 bythe first lifting motor 34, the clamping operation of the clampers 37 bythe clamper driving motor 36, the moving operation of the substratesupport unit 21 in the horizontal plane by the XYθ table 41, the liftingoperation of the substrate support unit 21 by the second lifting motor42, the moving operation of the carrying-out conveyer 15 in the Y axisdirection by the carrying-out conveyer moving mechanism 15 a, and thecarrying-out operation of the substrate 2 by the carrying-out conveyer15 are controlled by the controller 60 of the screen printing apparatus5. The moving operation of the print head 17 in the Y axis direction bythe print head moving mechanism 16, the lifting operations of thesqueegees 52 by the squeegee lifting cylinders 53, the ejectingoperation of the paste Pst by the paste supply mechanism 18, and themoving operation of the camera unit 20 in the horizontal plane by thecamera unit moving mechanism 19 are also controlled by the controller60.

In FIG. 7, the upper imaging camera 20 a is controlled by the controller60 and performs imaging of the mask-side marks 13 m disposed in thefirst pattern-forming area R1 of the mask 13 and imaging of themask-side marks 13 m disposed in the second pattern-forming area R2 ofthe mask 13. The lower imaging camera 20 b is controlled by thecontroller 60 and images the substrate-side marks 2 m on the substrate 2held by the substrate support unit 21. Image data obtained by theimaging of the upper imaging camera 20 a and image data obtained byimaging of the lower imaging camera 20 b are input to the controller 60and are processed by an image processing unit 60 a of the controller 60.The controller 60 calculates the positions of the mask-side marks 13 mand the positions of the substrate-side marks 2 m on the basis of theobtained image of the mask-side marks 13 m and the obtained images ofthe substrate-side marks 2 m (imaging results).

In FIG. 3, an operation panel 61 with a display device installed thereonwhich is operated by the operator OP is disposed on the front side (theside of the operator OP) of the base 11. The operation panel 61 isconnected to the controller 60 (FIG. 7), and the operator OP can inputoperations of the screen printing apparatus 5 through the operationpanel 61 and can acquire a variety of information on the screen printingapparatus 5.

A flow of the screen printing operation using the screen printingapparatus 5 will be described below with reference to FIGS. 8A to 11B.When a substrate 2 is sent out from one of two substrate supplyapparatuses 4, the controller 60 activates the carrying-in conveyermoving mechanism 14 a to move the carrying-in conveyer 14 to a positionfacing the substrate supply apparatus 4 to send out the substrate 2.Then, the controller 60 causes the carrying-in conveyer 14 to receivethe substrate 2 sent out from the substrate supply apparatus 4 andactivates the XYθ table 41 to move the substrate support unit 21 to aposition (referred to as a first position) below the firstpattern-forming area R1 or a position (referred to as a second position)below the second pattern-forming area R2. Here, which of the firstposition and the second position to move the substrate support unit 21to is determined by the type (the arrangement of the electrode 2 a) ofthe substrate 2 received by the carrying-in conveyer 14. The substratesupport unit 21 is located at the first position when the arrangement ofthe electrode 2 a of the substrate 2 corresponds to the first patternPT1, and the substrate support unit 21 is located at the second positionwhen the arrangement of the electrode 2 a of the substrate 2 correspondsto the second pattern PT2.

When the substrate support unit 21 is located at the first position orthe second position, the controller 60 moves the carrying-in conveyer 14having received the substrate 2 from the substrate supply apparatus 4 toa position facing the first position or a position facing the secondposition. Here, the controller 60 locates the carrying-in conveyer 14 atthe position facing the first position when the substrate support unit21 is located at the first position, and locates the carrying-inconveyer 14 at the position facing the second position when thesubstrate support unit 21 is located at the second position.

When the carrying-in conveyer 14 is located at the position facing thefirst position or at the position facing the second position, thecontroller 60 activates the carrying-in conveyer 14 and the conveyer 33of the substrate support unit 21 in cooperation with each other, carriesthe substrate 2 in the substrate support unit 21, and positions thesubstrate 2 at the clamping position. Then, when the first lifting motor34 is activated to lift the lower holding member 35 up and to supportthe substrate 2 from the lower side and the substrate 2 is lifted upfrom the conveyer 33 (arrow A1 in FIG. 8A), the clamper driving motor 36is activated to clamp and hold the substrate 2 with the clampers 37(arrow B1 in FIG. 8A).

When the substrate 2 is held by the substrate support unit 21 asdescribed above, the controller 60 moves the camera unit 20 through theuse of the camera unit moving mechanism 19 and images the mask-sidemarks 13 m through the use of the upper imaging camera 20 a. The imagingof the mask-side marks 13 m is performed on the mask-side marks 13 m inthe first pattern-forming area R1 when the substrate 2 will be broughtinto contact with the first pattern-forming area R1, and is performed onthe mask-side marks 13 m in the second pattern-forming area R2 when thesubstrate 2 i brought into contact with the second pattern-forming areaR2. After the mask-side marks 13 m are imaged, the controller 60 imagesthe substrate-side marks 2 m through the use of the lower imaging camera20 b.

After the mask-side marks 13 m and the substrate-side marks 2 m areimaged, the controller 60 activates the substrate holding and movingmechanism 12 to bring the substrate 2 into contact with the mask 13 inthe same way as described above (arrow C1 in FIG. 8B). Accordingly, theelectrode 2 a of the substrate 2 is matched with the pattern (the firstpattern PT1 or the second pattern PT2) of the mask 13 (FIG. 8B).

After the substrate 2 is brought into contact with the mask 13, thecontroller 60 causes a paste volume checking apparatus (not illustrated)to check whether a sufficient amount of paste Pst is present in the areaRm (on the mask 13 coming in contact with the front clamper 37F or therear clamper 37R) between the first pattern-forming area R1 and thesecond pattern-forming area R2. When it is determined that a sufficientamount of paste Pst is not present, the controller 60 causes the pastesupply mechanism 18 to supply the paste Pst to the area Rm.

When it is determined that a sufficient amount of paste Pst is presentin the area Rm between the first pattern-forming area R1 and the secondpattern-forming area R2 as the result of the paste volume checking (thepaste volume checking performed thereafter when the paste Pst issupplied by the paste supply mechanism 18), the controller 60 performssqueegeeing of the paste Pst using the squeegees 52. In the squeegeeing,the controller 60 moves the movable base 51 in the Y axis direction andcauses the print head 17 to reciprocate (slide) over the firstpattern-forming area R1 or over the second pattern-forming area R2. Bythis squeegeeing, the paste Pst is scraped on the mask 13 to fill thepattern of the mask 13, and the paste Pst is printed on the substrate 2.

In the squeegeeing, when the printing using the first pattern PT1 isperformed on the substrate 2, first, the rear squeegee 52R is lifteddown from above the area Rm between the first pattern-forming area R1and the second pattern-forming area R2 so as to bring the bottom thereofinto contact with the rear Rm (the mask 13 coming in contact with therear clamper 37R). With the contact position (a position in the area Rmbetween the first pattern-forming area R1 and the second pattern-formingarea R2 on the mask 13) as a movement start position, the rear squeegee52R is moved forward (arrow D1 in FIG. 9A). When the rear squeegee 52Rslides over the first pattern-forming area R1 on the mask 13 and reachesabove the front clamper 37F, the rear squeegee 52R is lifted up and thefront squeegee 52F is lifted down to come in contact with the frontclamper 37F. The front squeegee 52F is moved backward from the contactposition (arrow D2 in FIG. 9B), and when the front squeegee 52F slidesover the first pattern-forming area R1 on the mask 13 and is returned tothe movement start position on the rear clamper 37R, the front squeegee52F is lifted up and to be on standby.

On the other hand, when the printing using the second pattern PT2 isperformed on the substrate 2, first, the front squeegee 52F is lifteddown from above the area Rm between the first pattern-forming area R1and the second pattern-forming area R2 so as to bring the bottom thereofinto contact with the area Rm (the mask 13 coming in contact with thefront clamper 37F). With the contact position as a movement startposition, the front squeegee 52F is moved backward (arrow D3 in FIG.10A). When the front squeegee 52F slides over the second pattern-formingarea R2 on the mask 13 and reaches above the rear clamper 37R, the frontsqueegee 52F is lifted up and the rear squeegee 52R is lifted down tocome in contact with the rear clamper 37R. The rear squeegee 52R ismoved forward from the contact position (arrow D4 in FIG. 10B), and whenthe rear squeegee 52R slides over the second pattern-forming area R2 onthe mask 13 and is returned to the movement start position on the frontclamper 37F, the rear squeegee 52R is lifted up to be on standby.

In this way, in the screen printing apparatus 5 according to thisembodiment, the print head 17 prints the paste Pst on the substrate 2selectively brought into contact with one of the first pattern-formingarea R1 and the second pattern-forming area R2 by moving over the mask13. At this time, the print head 17 sets a position in the area Rmbetween the first pattern-forming area R1 and the second pattern-formingarea R2 on the mask 13 as the movement start position and is operated toreciprocate in the Y axis direction over the first pattern-forming areaR1 from the movement start position and is returned to the movementstart position when the first pattern PT1 is printed on the substrate 2coming in contact with the first pattern-forming area R1 and toreciprocate in the Y axis direction over the second pattern-forming areaR2 from the movement start position and is returned to the movementstart position when the second pattern PT2 is printed on the substrate 2coming in contact with the second pattern-forming area R2.

When the squeegees 52 reciprocates to fill the pattern of the mask 13with the paste Pst and to print the paste Pst on the substrate 2, thecontroller 60 activates the second lifting motor 42 to lift down thelifting plate 31 (arrow C2 in FIG. 11A) and separates the substrate 2from the mask 13 to perform substrate separation (FIG. 11A).Accordingly, the screen printing operation for each substrate 2 ends.

When the screen printing operation for each substrate 2 ends, thecontroller 60 opens the clampers 37 (arrow B2 in FIG. 11B), lifts downthe lower holding member 35 (arrow A2 in FIG. 11B), and places thesubstrate 2 on the conveyer 33 (FIG. 11B). Then, the conveyer 33 and thecarrying-out conveyer 15 are activated in cooperation with each other tocarry out the substrate 2 to the first component mounting apparatus 6downstream from the screen printing apparatus 5. After the substrate 2is carried out, the controller 60 determines whether a substrate 2 notyet subjected to the screen printing is present. As a result, thesubstrate 2 is carried in by the carrying-in conveyer 14 when asubstrate 2 not yet subjected to the screen printing is present, and theseries of operations end when a substrate 2 not subjected to the screenprinting is not present.

In the screen printing operation, the print head 17 reciprocates overthe first pattern-forming area R1 or over the second pattern-formingarea R2 from the movement start position in the area Rm between thefirst pattern-forming area R1 and the second pattern-forming area R2 onthe mask 13 and prints the paste Pst on the substrate 2. Accordingly,for example, when the second pattern PT2 is printed on the second typesubstrate 2 after the first pattern PT1 is printed on the first typesubstrate 2 as well as when the first pattern PT1 is printed on thefirst type substrate 2 after the first pattern PT1 is printed on thefirst type substrate 2, the paste Pst is present at the movement startposition which is the start position of reciprocation and it is thuspossible to use the paste Pst on the mask 13 without any waste.Accordingly, it is possible to reduce the amount of paste Pst that iswasted. The paste Pst on the mask 13 is returned to the area Rm betweenthe first pattern-forming area R1 and the second pattern-forming area R2on the mask 13 after the printing. Accordingly, even when differenttypes of substrates 2 are carried in randomly (that is, even when thesubstrate 2 is carried in any one of the first pattern-forming area R1and the second pattern-forming area R2), the printing operation can beimmediately started.

In FIGS. 1 and 2, each component mounting apparatus 6 includes twosubstrate carrying lanes 72 (the first substrate carrying lane 72 a orthe second substrate carrying lane 72 b) arranged in the patternarrangement direction (Y axis direction) on the mask 13 of the screenprinting apparatus 5 and working devices 6 a corresponding to details ofthe component mounting-relevant operations for the first type substrate2 and the second type substrate 2.

The component mounting apparatus 6 carries and positions the substrate 2received from the screen printing apparatus 5 through the use of thefirst substrate carrying lane 72 a or the second substrate carrying lane72 b and performs a predetermined component mounting-relevant operationthrough the use of the working device 6 a. For example, when theoperation is an inspection operation of the substrate 2 on which thepaste Pst has been printed by the screen printing apparatus 5, theworking device 6 a is an inspection head. When the operation is acomponent mounting operation of picking up a component 3 from acomponent supply unit and mounting the component 3 on the substrate 2,the working device 6 a is a mounting head. When the predeterminedcomponent mounting-relevant operation is ended by the working device 6a, the component mounting apparatus 6 activates the substrate carryinglane 72 to carry out the substrate 2 to the downstream process side.

In this way, each component mounting apparatus 6 installed on thedownstream side of the screen printing apparatus 5 includes the firstsubstrate carrying lane 72 a and the second substrate carrying lane 72 bwhich are arranged in the arrangement direction (Y axis direction) ofthe patterns (the first pattern PT1 and the second pattern PT2) of themask 13 in the screen printing apparatus 5, carries the first typesubstrate 2 on which the first pattern PT1 has been printed in the firstsubstrate carrying lane 72 a, performs the component mounting-relevantoperation (first operation step) on the substrate 2, carries the secondtype substrate 2 on which the second pattern PT2 has been printed in thesecond substrate carrying lane 72 b, and performs the componentmounting-relevant operation (second operation step) on the substrate 2.

On the other hand, the screen printing apparatus 5 selects the type of asubstrate 2 to be carried in depending on whether a substrate is carriedin the second component mounting apparatus 6 (hereinafter, referred toas second component mounting apparatus 6) downstream from the screenprinting apparatus 5. More specifically, the type of the substrate 2carried in the substrate carrying lane 72 on the side requesting thesubstrate 2 out of two substrate carrying lanes 72 of the secondcomponent mounting apparatus 6 is set as the type of the substrate 2 tobe carried in the screen printing apparatus 5 (selection process). Whena substrate 2 is not present in two substrate carrying lanes 72 (thefirst substrate carrying lane 72 a and the second substrate carryinglane 72 b) thereof, each component mounting apparatus 6 outputs a signalfor requesting carrying-out of a substrate 2 (substrate request signal)to the component mounting apparatus 6 on the immediate upstream side(the first component mounting apparatus 6 (hereinafter, referred to asfirst component mounting apparatus 6) downstream from the screenprinting apparatus 5 outputs the substrate request signal to the screenprinting apparatus 5). The component mounting apparatus 6 (or the screenprinting apparatus 5) having received the substrate request signal in astate in which it can carry out the substrate 2 carries out thesubstrate 2 to the first component mounting apparatus 6 (that is, havingoutput the substrate request signal).

In this embodiment, the second component mounting apparatus 6 outputsthe substrate request signal to the screen printing apparatus 5 as wellas the first component mounting apparatus 6. Then, the screen printingapparatus 5 determines the type of a substrate to be carried in from thesubstrate supply apparatus 4 on the basis of the substrate requestsignal output from the second component mounting apparatus 6.

FIG. 12 is a flowchart illustrating a determination flow that isperformed by the controller 60 when the type of a substrate 2 to becarried in the screen printing apparatus 5. The controller 60 determineswhether a substrate 2 can be received by the carrying-in conveyer 14,that is, whether a substrate 2 is present in the carrying-in conveyer 14and the substrate support unit 21 (step ST1). When a substrate 2 cannotbe received (when a substrate 2 is present in the carrying-in conveyer14 or the substrate support unit 21), the controller waits until asubstrate 2 can be received. When a substrate can be received, thecontroller 60 determines whether the substrate request signal outputfrom the second component mounting apparatus 6 to the first componentmounting apparatus 6 includes both substrate request signals of asubstrate request signal (referred to as A substrate request signal) forrequesting the first type substrate 2 (referred to as A substrate) and asubstrate request signal (referred to as B substrate request signal) forrequesting the second type substrate 2 (referred to as B substrate)(step ST2). When it is determined that both substrate request signals ofthe A substrate request signal and the B substrate request signal arereceived, the controller 60 determines whether the second componentmounting apparatus 6 carries the A substrate in last time (step ST3).The B substrate is carried in (step ST4) when the second componentmounting apparatus 6 carries the A substrate in last time, the Asubstrate is carried in (step ST5) when the second component mountingapparatus 6 carries the B substrate in.

On the other hand, when it is determined in step ST2 that both substraterequest signals of the A substrate request signal and the B substraterequest signal are not received from the second component mountingapparatus 6, the controller 60 determines whether the A substraterequest signal is received (step ST6). The A substrate is carried in(step S5) when it is determined that the A substrate request signal isreceived, and it is determined whether the B substrate request signal isreceived otherwise (step ST7). The B substrate is carried in (step ST4)when it is determined that the B substrate request signal is received,and the process flow is returned to step ST1 otherwise.

The operation of the component mounting line 1 will be described belowwith reference to FIGS. 13 to 15 on the basis of the control of thecontroller 60. In FIGS. 13 to 15, the A substrate is referenced byreference sign “A”, and the B substrate is referenced by reference sign“B”. In FIGS. 13 to 15, a solid arrow represents a path through which asubstrate 2 has passed and a dotted arrow represents a substrate requestsignal.

When the component mounting line 1 starts manufacturing, each componentmounting apparatus 6 outputs a substrate request signal for an Asubstrate 2 and a substrate request signal for a B substrate 2 to thecomponent mounting apparatus 6 on the immediate upstream side thereof(the first component mounting apparatus 6 outputs the substrate requestsignal to the screen printing apparatus 5). The second componentmounting apparatus 6 outputs a substrate request signal to the screenprinting apparatus 5 as well as the first component mounting apparatus6. The screen printing apparatus 5 receives the A substrate from thesubstrate supply apparatus 4 through the use of the carrying-in conveyer14 on the basis of the substrate request signal for the A substrateoutput from the second component mounting apparatus 6 to the screenprinting apparatus 5 (when it is assumed that the A substrate ispreferentially carried in at the time of start of manufacturing). The Asubstrate is carried in the substrate support unit 21 and is subjectedto the screen printing (FIG. 13A). The screen printing apparatus 5carries the A substrate subjected to the screen printing to thecarrying-out conveyer 15 to be on standby, and receives the B substratefrom the substrate supply apparatus 4 on the basis of the substraterequest signal for the B substrate output from the second componentmounting apparatus 6. The received B substrate is carried in thesubstrate support unit 21 and is subjected to the screen printing (FIG.13B).

The screen printing apparatus 5 carries out the A substrate 2 on thecarrying-out conveyer 15 to the first substrate carrying lane 72 a onthe basis of the substrate request signal output from the firstcomponent mounting apparatus 6, carries the B substrate subjected to thescreen printing to the carrying-out conveyer 15 to be on standby,carries in the A substrate on the basis of the substrate request signalfor the A substrate output from the second component mounting apparatus6. The first component mounting apparatus 6 having received the Asubstrate from the screen printing apparatus 5 performs a componentmounting-relevant operation (first operation step) on the A substrate(FIG. 13C).

Thereafter, the screen printing apparatus 5 carries out the B substrateon the carrying-out conveyer 15 to the second substrate carrying lane 72b on the basis of the substrate request signal for the B substrateoutput from the first component mounting apparatus 6, and carries in theB substrate on the basis of the substrate request signal for the Bsubstrate output from the second component mounting apparatus 6. In themeantime, the first component mounting apparatus 6 from the screenprinting apparatus 5 carries out the A substrate subjected to thecomponent mounting-relevant operation on the basis of the substraterequest signal from the second component mount ing apparatus 6, andperforms a component mounting-relevant operation (second operation step)on the B substrate received from the screen printing apparatus 5. Thesecond component mounting apparatus 6 performs the componentmounting-relevant operation (first operation step) on the received Asubstrate (FIG. 14A).

In this way, in the component mounting line 1, the substrate requestsignal for the A substrate and the substrate request signal for the Bsubstrate are alternately output from the second component mountingapparatus 6 to the screen printing apparatus 5, and the screen printingapparatus 5 alternately carries in the A substrate and the B substrate,alternately perform the screen printing thereon, and alternately carriesout the A substrate and the B substrate to the first component mountingapparatus 6 (FIG. 14B→FIG. 14C→FIG. 14B→FIG. 14C→FIG. 14B→ . . . ).

Here, during the manufacturing in the component mounting line 1, it isassumed that the flow of the A substrate in the component mountingapparatus 6 on the downstream side of the second component mountingapparatus 6 is delayed due to an error or the like (FIG. 15A). In thiscase, after the A substrate subjected to the screen printing is sent outto the first component mounting apparatus 6 (FIG. 15B), the screenprinting apparatus 5 repeatedly performs the operations of carrying inthe B substrate on the basis of the substrate request signal for the Bsubstrate output from the second component mounting apparatus 6,performing the screen printing, and carrying out the B substrate (FIG.15C→4 FIG. 15D→4 FIG. 15C→4 FIG. 15D→FIG. 15C→ . . . ). This is becausethe screen printing apparatus 5 selects the type of the substrate 2 tobe carried in depending on whether a substrate is carried in the secondcomponent mounting apparatus 6 (on the basis of the substrate requestsignal output from the second component mounting apparatus 6 to thescreen printing apparatus 5 as well as the first component mountingapparatus 6). Accordingly, when the flow of the A substrate on the sideof the component mounting apparatus 6 is stopped, the screen printingapparatus 5 does not carry in the A substrate but carries in the Bsubstrate. As a result, the component mounting line 1 does not stop themanufacturing of the B substrate.

When the screen printing apparatus 5 alternately carries in the Asubstrate and the B substrate as in the related art, the A substrate iscarried in the screen printing apparatus 5 in FIG. 15B. Then, after thescreen printing apparatus 5 sends out the A substrate therein to thecomponent mounting apparatus 6 on the immediate downstream side thereof,there is no place to which A newly carried A substrate is carried outand thus the manufacturing of the B substrate is stopped.

As described above, in the component mounting line 1 (component mountingmethod) according to this embodiment, the screen printing apparatus 5selects the type of a substrate 2 to be carried in depending on whethera substrate is carried in the second component mounting apparatus 6(more specifically, carries in the same type of substrate 2 as the typeof the substrate of which the carrying-out is requested to the firstcomponent mounting apparatus 6 by the second component mountingapparatus 6). Accordingly, even when the flow of one type of substrateon the side of the component mounting apparatus 6 is stopped, asituation does not occur in which the type of substrate 2 stays in thescreen printing apparatus 5 and cannot be carried out to the componentmounting apparatus 6. Accordingly, the manufacturing of a substrate 2 inone substrate carrying lane 72 is not adversely affected because thecarrying state of the one substrate carrying lane 72 is not abnormal butthe substrate 2 cannot be carried out from the screen printing apparatus5 to the one substrate carrying lane 72. As a result, it is possible toprevent degradation in productivity in one substrate carrying lane 72 inwhich the carrying is not stopped.

It is possible to provide a component mounting line and a componentmounting method that can prevent degradation in the productivity in onesubstrate carrying lane even when carrying of a substrate in the othersubstrate carrying lane is delayed.

What is claimed is:
 1. A component mounting line comprising: a screenprinting apparatus that prints paste on a substrate; and a plurality ofcomponent mounting apparatuses that are arranged in series on adownstream side of the screen printing apparatus and perform a componentmounting-relevant operation on the substrate on which the paste has beenprinted by the screen printing apparatus, wherein the screen printingapparatus includes a mask in which a first pattern-forming area in whicha first pattern corresponding to a first type substrate is formed and asecond pattern-forming area in which a second pattern corresponding to asecond type substrate is formed are arranged in a predetermined patternarrangement direction, a substrate support unit moving mechanism thatmoves a substrate support unit supporting a substrate in the patternarrangement direction below the mask and that selectively brings thesubstrate into contact with one of the first pattern-forming area andthe second pattern-forming area, and a print head that prints the pasteon the substrate selectively brought into contact with one of the firstpattern-forming area and the second pattern-forming area by moving overthe mask, wherein each of the plurality of component mountingapparatuses includes a first substrate carrying lane and a secondsubstrate carrying lane which are arranged in the pattern arrangementdirection, carries the first type substrate on which the first patternhas been printed in the first substrate carrying lane, performs acomponent mounting-relevant operation on the first type substrate,carries the second type substrate on which the second pattern has beenprinted in the second substrate carrying lane, and performs a componentmounting-relevant operation on the second type substrate, and whereinthe screen printing apparatus selects a type of the substrate to becarried in depending on whether a substrate is carried in the secondcomponent mounting apparatus downstream from the screen printingapparatus.
 2. The component mounting line according to claim 1, whereinthe screen printing apparatus selects the type of a substrate carried inthe substrate carrying lane having requested the substrate out of thetwo substrate carrying lanes of the second component mounting apparatusdownstream from the screen printing apparatus as the type of thesubstrate carried in the screen printing apparatus.
 3. A componentmounting method in a component mounting line including a screen printingapparatus that prints paste on a substrate and a plurality of componentmounting apparatuses that are arranged in series on the downstream sideof the screen printing apparatus and perform a componentmounting-relevant operation on the substrate on which the paste has beenprinted by the screen printing apparatus, the screen printing apparatusincluding a mask in which a first pattern-forming area in which a firstpattern corresponding to a first type substrate is formed and a secondpattern-forming area in which a second pattern corresponding to a secondtype substrate is formed are arranged in a predetermined patternarrangement direction, a substrate support unit moving mechanism thatmoves a substrate support unit supporting a substrate in the patternarrangement direction below the mask and that selectively brings thesubstrate into contact with one of the first pattern-forming area andthe second pattern-forming area, and a print head that prints the pasteon the substrate selectively brought into contact with one of the firstpattern-forming area and the second pattern-forming area by moving overthe mask, each of the plurality of component mounting apparatusesincluding a first substrate carrying lane and a second substratecarrying lane which are arranged in the pattern arrangement direction,the component mounting method comprising: a first operation step inwhich the each component mounting apparatus carries in the first typesubstrate on which the first pattern has been printed using the firstsubstrate carrying lane and performs a component mounting-relevantoperation on the first type substrate; a second operation step in whichthe each component mounting apparatus carries in the second typesubstrate on which the second pattern has been printed using the secondsubstrate carrying lane and performs a component mounting-relevantoperation on the second type substrate; and a selection step in whichthe screen printing apparatus selects the type of a substrate to becarried in depending on whether a substrate is carried in the secondcomponent mounting apparatus downstream from the screen printingapparatus.
 4. The component mounting method according to claim 3,wherein, in the selection step, the type of a substrate carried in thesubstrate carrying lane having requested the substrate out of the twosubstrate carrying lanes of the second component mounting apparatusdownstream from the screen printing apparatus is selected as the type ofthe substrate carried in the screen printing apparatus is set as.